Investigation on Steady Magnetohydrodynamic flow of Dusty fluid between parallel plates with an angular velocity
The present examination around the impact of steady magnetohydrodynamic flow of dust particles on the velocity of electrically directing viscous fluid between parallel plates with an angular velocity contained by the sight of a transverse magnetic field. The differential equations managing the flow are explained by similarity transformation. The velocity of the fluid, velocity of the dust particles and pressure distribution are obtained. The outcomes are the velocity of dust particle is higher than that velocity of the fluid particles for every one of the parameters examined.